Camera



v. E. FRATT Sept. 17, 1946.

CAMERA 4 Sheets-Sheet 1 Original Filed Jan. 3, 1942 Fla. 4 FIG-.3

Illllllllt'lllll-l INVENTOR VEHNEURE Pmrr ATTORNEYS Sept. 17, 1946. F -f 2,407,902

CAMERA Original Filed Jan. 3, 1942 4 Sheets-Sheet 2 INVENTOR YERNEUH E. Pmr'r ATTORNEYS Sept. 17,1946. E, PRATT 2,407,902

Q CAMERA OriginaFFiled Jan. 5, 1942 4 Sheets-Sheet 3 INVENTOR VERNEUR E. P/mrz ATTORNEYS Sept. 17, 19 46. PRATT I 2,407,902

CAMERA Original Filed 3, 1942 4 Sheets-Sheet 4 INVENTOR ATTORNEYS Patented Sept. 17, 1946 I UNITED STATES PATENT OFFICE CAMERA Verneur E. Pratt, Norwalk, Conn, assignor to l crostat Corporation, a corporation of Delaware Original application January 3, 1942, Serial No. 425,528. Divided and this application July 1, 1943, Serial No. 493,034

3 Claims. (01. 88-28) The present invention pertains to improve- Figiire 19 is an ed detail rear View of the ments in photographic and reproducing apparaindexmg clutch mechanism in engaged r v tug position;

An object of the invention is to provide im- Figure llisaside View Of the Same; pr Ved means for recQ -ding drawings maps (cm 3, Figure 12 is a rear View of the same in released ments and the like on photographic film, such lndexed P as microfilm Figure 13 is a diagrammatic illustration of the Another object is to provide improved apparafilm reels and D drive; tus of the above nature including means to repro- Figure 14 s a plan View of the shutter; duce the photographed drawings, etc., by direct m Figure 15 is a detail Side View Of Same, enlargement. showing the driving gears; and

A further object is to provide an improved Figure 16 s a Wiring diagram of the various can gya-pp jg t r adapted t photograph data as electrical apparatus embodied in the invention. noted and to reproduce the same through the ThiSI application is a diViSiOYl of ppl t o same lens with identical setting, whereby any pos- 15 serial filed January 3, 1942, now sible aberration in recording is automatically cor-, Patent 47, dated Dec. 13, 1945. rected in reproduction. rr g to Figure the camera-projector 42 Another object is to provide a camera-projector h s a m in base r ed p te 3- A pp v rof the above type having improved means to intical sleeve M3 is secured in the front end of the dex, register andexpose the film. base 63 and has rotatably mounted therein, a sec- Another object is to provide a suitable object nd sleeve 45 on the lower end of which is secured table platen and improved means to support the a Worm-gear ring 46. A cylindrical lens barrel same and the camera in rigid mutual relationi? is threaded at 48 in ship, whereby possible vibrational flexings beand has a longitudinal slot 49 engaging a suitable tween them are substantially eliminated and if '35 key 50 in a stationary ring 5! secured in the upany vibration is present the table and camera per end of the outer sleeve 55. A suitable lens vibrate together as a unit. assembly 52, having a lever 53 for adjustment of A further object is to provide improved ilthe usual iris diaphragm (not shown),ismounted luminating means for the object table. in the barrel 41.

Another O j c s provide improved power A reversible motor 54, mounted on the bottom and control means by which elevation and lowerof t camera base 43 has on t h ft worm ing of the camera, adjustment of the lens focus, 5e meshing t t a ring 43 actuation of the indexer and shutter, and the From the foregoing description it will he various other operational functions are readily t th t h the motor 54 is operated the ca r ed o t by 1661110175 Control from a Single worm 56 revolves the gear ring 46 and with it the ators station. sleeve 45. The barrel 4'! being threaded, in sleeve Qtb r obj t d advantages f the invention but restrained from rotation by the stationary will become evident during the course of the folkey 56, rotation of sleeve 45 feeds the barrel 4? lowing description, in connection with the accomand t t the lens assembly 52 upward or dawn- P yns "a ,i W i ward depending on the direction of rotation of Figure 1 15-21. vertical side view of the camerathe motor 54. Thus the motor 54 is adapted to proj or and e ated apparatus partly in secadjust the focus of the lens assembly 52, each side the second sleeve 45,

tion; revolution of the motor changing the lens posi- F u e 2 is a ta V e O t e e e ati n nd tion by a definite small increment pro-determined eating scale; 40 by the lead of the thread 43 and the reducing Figure 3 is a detail view of the exposure motor ratio of the worm 5'6 and gear 46; for example, holding switch and cam; an increment of .00025 inch.

Figure 4 is a similar view of the cam and switch Removably disposed in the central portion for controlling open shutter Warning light during of the camera-projector 62 is a film-control and picture taking; shutter sub-assembly 6!, shown in detail in Fig- Figure 5 is a detail plan view of the film gate, ures 5 to 15, and to be presently described. indexing, registering and shutter structure; A lamp housing 52 is horizontally pivoted at Figure 6 is a vertical detail view of the same as and normally engages the top of the central partially on the lines 6-5, Figure 5; portion in light-tight relationship. A con- Figure 7 is a detail view of the pressure plate densing lens system 64 is secured in the bottom control cam, lever and plunger; of the housing 62 in optical alignment with the Figure 8 is a detail View of the indexing cam, projection or photographic lens 52. A lamp 65 lever and plate; is mounted in a socket 86 in the rear end of the Figure 9 is a detail side view of the camshaft housing 62. An inclined mirror 6"! is adjustably gear and cams; 60 secured to the upper front wall 68 of the housing illustrated in Figure 2.

leading up through the bottom of the housing 62 and suitable openings Iii in the rear thereof.

A light shield or hood TI is pivoted at 12 to the carriage 4|, the front upper end 13 of the hood normally overlying the rear top of the lamp housing 62. A rod 14 is horizontally pivoted at 15 to the rear of the housing 92, while the rear end of the rod engages a socket 19 secured to the back of the hood 1 I.

When the housing 62 is swung upward and rearwardly on its pivots 63 to allow access to the sub-assembly 6| as hereinafter set forth, the rod 14 swings the hood 1I upwardly as illustrated in dot and dash lines, Figure 1, thus providing ample clearance between the top of the housing and the hood.

A motor 11 having a suitable speed-reducinggear head I9 is mounted in the base 43 and is adapted to drive the shaft 19 of the sub-assembly 6| through an extension shaft 99 and a jaw coupling BI. cams 82 and 03, shown in detail in Figures 3 and 4, these cams being adapted to respectively control switches 94 and 85 for purposes hereinafter set forth. Rubber vibration dampers We are provided in the mounting of motor 11.

The column 40 is provided with a longitudinal key 86 fitting in the rear portion of the carriage 4|, thereby preventing any swinging motion of the carriage and camera-projector about the column.

A reversible motor 81, mounted under the frame 30, is provided with a worm-gear speed reducer 88 carrying on its output shaft 89 a sprocket A roller chain 95 is secured to the upper portion of the carriage i and extends upward therefrom and over an idler sprocket 92 on the top of the column 40, thence downward through the interior of the column and around a second idler sprocket 93 to the drive sprocket 90, and thence via a third idler sprocket M to a turn-buckle 95 secured to the bottom of the carriage 4!.

When the motor 31 is operated to drive the chain 9| the carriage and camera-projector as-- sembly is raised or lowered along the column 99, and as the worm speed reducer 88 is of the irreversible drive type the latter acts as a lock to hold the carriage at any point of elevation when the motor is stopped. The turn-buckle 95 is operable to take up any slack in the chain. A heavy weight EiI is secured to the chain 9! inside the column 90 to serve as a counter-balance for the greater part of the weight of the carriage and camera-projector.

A measuring tape 99 has its free end clipped to the chain 9I at 91 just below the turn-buckle 95, the tape extending downward in front of the chain through a slot 99 in the table 39 and to a spring actuated retracting reel 99 of any suitable type secured under the table. 1

As the mechanisms of such reels are well known and form per se no part of the present invention, no further description is required herein. It is evident, however, that as the carriage is moved upor down the tape 96 unreels or re-reels through the'slot 93 and the figures I99 (see also Figure 2) thereon serve as a visual indication of the height of the camera-projector above the table 34 as Referring to Figures 5 and 6, it will be seen that the sub-assembly GI has a casing I08 pro- The extension shaft 89 carries two vided with horizontal side slots I09 and H0} through which the film I91 is threaded. The

film overlies a gate or circular mask II I secured in a horizontal partition H2 in the casing I08. A transparent pressure plate I I3, preferably of circular shape, is held in a frame I I4 trunnioned at H5 and H3 toayoke H1. The shank H9 of yoke H1 is loosely pivoted to the top of a plunger II9 vertically slidable in a boss I in the partition IIZ as shown in detail in Figure '1, the plunger II9 being urged upward by a spring I2 I. A fulcrum block I22 has therein a slot I23 in which the shank H8 is retained hy means of a normally retractible pin I24. The lower end of the plunger I I 9 is slotted and has therein a cross pin I25 supporting the end of a lever I26 which is fulcrumed on a stationary pivot pin I21. A cam I28 on the drive shaft 19 engages and is adapted to rock the lever I 26 downward.

' Normally the upward pressure of the spring I2 I, acts through the plunger I I9, holds the shank IBI of yoke I I1 against the retractible pin I23, the latter acting as a fulcrum and causing the trunnioned pressure plate 3' to press the film I91 downward against the gate I! I. The

trunnions II5 and N9, the free sliding and rock-' ing permitted the shank I I8 in the fulcrum slot I23, and the loose pivoting of the shank to the plunger H9, allow the pressure plate I I3 to float into firm and even engagement throughout the entire underlying portion of the film I91, thus assuring accurate flatness of the latter across the gate III.

When the cam I28 rocks the lever I26 downward during the operation of the device as hereinafter described, the plunger I I9 is drawn downward against the pressure of spring I2I. The shank H3 engages the curved bottom I23 of the slot I23 which acts as a fulcrum, causing the pressure plate I I3 to be raised out of engagement with the film I01.

A second shaft I29, journalled in the casing I00 and hereinafter referred to as the sprocket shaft, has rotatably mounted thereon a sprocket spool I30, the latter having the usual teeth I3I engaging the perforations I32 of the film I01. A grooved shoe I33 underlies the sprocket I30 and keeps the film at all times in proper engagement with the sprocket teeth.

A horizontal drive pin I34 is secured in the rear end of the sprocket spool I30. An annular driving member I35, slidably mounted on the shaft I29, has a series of index holes I33 corresponding in number and circumferential spacing to the sprocket teeth I3I, each hole being adapted to engage the pin I34 as-shown in Figure 5. When so positioned the driving member I35 is held pressed in the described driving engagement with the pin I34 by a compression spring I31. A pin I38 in the shaft I29 engages a longitudinal slot I39 in the member I35, allowingthe latter to be slid longitudinally on the shaft but normally preventing any rotary motion between. these parts. A short circumferential extension I40 isprovided in the front of the slot I39.

When it is desired to rotate the sprocket I39 manually, as in threading, adjusting or removing the film I01, the member I35 is slid rearwardly against the pressure of spring I31 until the front of the slot I39 encounters the pin I39, whereupon the member I35 is turned to hook the pin I38 in the circumferential extension I40 of the slot and thereby prevent forward sliding return of the driving member.

By this operation the driving member I36 is withdrawn from and,

locked out of-engagementwith the pin I94, leaving the sprocket free to be manually revolved on the shaft I 29. When manual adjustment is completed, the member I35 is returned to engagement with the sprocket hub by the reverse of the releasing-operation described, the pin I94 entering any chosen hole I36 andassumingan accurately indexed setting.

The spring I 3''! is backed by the hub I41 of a clutch plate I42, the hub I4I being pinned to the sprocket shaft I29. To the rear of the plate I42 is a ratchet I43 having a hub I44 carrying a spur pin-ion I45 (Figures '5 and 11), the ratchet and gear combination being rotatably mounted on the shaft 1 29.

The pinion I45 meshes with an idlergear I46 which in turn meshes with a gear 'I-4'I-secured to the drive shaft 19, the driveratio-in the present embodiment being one to two, i. e., one revolution of the drive shaft '19 drives the ratchet I43 through two revolutions. The gear I41 carries on its rear side the cam I29 as shown in detail in FigureQ. The gear also carries on its front side a second cam I48, the purpose of which will presently be explained.

The clutch plate I42 has in its periphery two oppositely spaced notches I49 and I!) (Figures 8, 10, '11 and 12), adapted to receive a detent 151 on theend of a lever I52 pivotedon the pin [2! (Fig-ure 8).

A horizontal arm I53 of the lever I52 engages the second cam I 48. A tension spring I 54 urges the arm 1'53 upward to hold the detent I5I in-engagement with the plate I42 except when the detent is withdrawn by action of the cam I48 as hereinafter set forth.

A pawl I55 is pivoted at I 56 to the rear face of the plate I42 and is adapted to be rocked into engagement with the ratchet I49 by a spring I5! (Figures 1-0 and 12). The rear end I58 of the pawl I55 is disposed alongside the notch I49, so that when the detent I5I occupies the notch I49 as shown in Figure 16, it holds the pawl I55 out of engagement with the ratchet I43.

An arcuate link I59 'is articulated at I60 to the pawl I55, and at PM to a short second link I62 which is pivotally mounted at I63 on the plate I42. The joint I6I between links I59 and I62 is disposed beside the notch I50, so that when the detent I 5| enters the notch I50 it presses the joined ends ofthe links inward, causing the links to operate as a toggle to force th pawl I55 out of engagement with the ratchet I43. Thus it will be seen'that engagement of the detent I5I with 'ei-ther notch I49 or I 50 releases the pawl I55 from the ratchet, while the detent, urged into thenotch by the tension spring I54 (Figure 8), stops and holds the plate I42 in a pre-determined position, the ratchet "I43 continuing to revolve on the shaft I29.

As the plate I42 is normally connected to the sprocket 130 via the shaft I29 and driving member I35, as previously described, the sprocket I30 and film I97 are thereby held accurately in in- 'dex position as long as the detent I5I remains in one of the notches I49 or I50.

Once during each rotation of the drive shaft I9 (Figure 8), the cam I48 depresses the lever arm. I93, thus withdrawing the detent I5I from whichever notch it has previously engaged, allowing the pawl I55 to engage the rotating ratchet I43 and thereby drive the plate I42 and sprocket I30.

' When the comparatively narrow lobe I 48 of the 'cam I48 releases the lever arm I53, "the detent I5I rides on the periphery of the plate I42 until the succeeding notch I 49 or I50moves into registry with the detent, when the latter again is forced into the notch by the spring I54 to again release thepawl I 55and stop th plate and sprocket as previously described.

From the foregoing, it is evidentthat once during each revolution of the drive shaft 19, the plate I42 and sprocket I30 are driven exactly one-half revolution, and the film I01 is consequently moved an index distance corresponding to one-half the pitch circumference of the sprocket I30, this distance equalling one *frame spacing of the film. Since the ratchet I 43 is driven at double the rotative speed of the drive shaft 79, as previouslyset forth, it is alsoevident that the movement of the film takes place during one-quarter revolution of the drive shaft 1 9.

The earn l28 (Figure 7) has a comparatively wide lobe I-28 which forces the lever I26 downward just prior to release of the detent 45I from its engaged notch and holds the lever I26 depressed during the described half-revolution of the sprocket I 30.

By this means the pressure plate H3 (Figures 5 and 6) is raised and held clear of the film 101 while the latter is moved. In Figure 6, it will be observed that while released by the pressure plate II3, the film I0! is guided by the shoe I33 and a roller I64, the latter being disposedin the lefthand magazine I101 near the reel I95 as shown diagrammatically in Figure 13. The heights of the shoe I33 and roller I64 are such that when released as noted, the film I07 clear the gate II I, By this means the film is kept out of sliding contact with the gate during its movement, thus avoiding any possible abrasion.

A pulley 95 on the end of the sprocket shaft I29 (Figure 5) drives a spring friction belt 166 which in turn engages a secondpulley I 6 connected to the film reel I06 as shown diagrammaticallyin Figure 13, thu providing a yielding or slip take-up drivefor the reel I 06.

A disk shutter I68 (Figures -6, 14 and 15) is rotatably mounted on the bottom plate I69-ofthe sub-assembly casing 68, and is adapted to be driven at ene-to-one ratio from the drive shaft 19 via mitre gears I19 and Ill. The shutter I68 normally overlies and closes off a light opening H2 in the bottom plate I 99 above the lens 52 and in optical alignment with the film gate I I "I.

By this means the shutter-normall prevents passage of light between the lens and film. The shutter I68 has a cut-out portion or notch I73 extending throughout 90 degrees of arc in the embodiment illustrated.

During rotation of theshutter at constant speed, the passage of the notch I13 over the opening permits the passage of light from the lens to the film for a pre-d'etermined exposure time, as hereinafter set forth. The gearing of the shutter to the shaft I9, of courseis so arranged that the exposure takes place while the film I01 is 3stati0nary and held flat by th pressure plate II Referring to the typical'wiring diagram (Figure 16), the numerals 204 and 205 designate the conductors of a suitable source of A.-C. current supply, leading into the main or line switch I86, thence to distributing conductors 296 and 207.

Branches 208 and 209 lead'to manual switch I85, hereinafter termed the light switch. From the "output poles of the switch I wires 2H) and 2| I are connected to thevariable transformer I8].

The lamps I94 for illuminating "the documents are connected in parallel between conductors 2 I2 and 2I2 from the output terminals of the transformer I81.

It will be seen from the above description that when the switches I86 and I31 are closed, the lamps I94 draw current and are illuminated, the voltage and consequ ntly the intensity of the illumination being adjustable by means of the variable transformer I81. v

The reversing switch I19 is of the three-pole double throw construction with a central off position. The switch has upper and lower contact points 2I3, 2I4, 2I5 and 2I6, 2I1, 2I8, respectively adapted to be alternately engaged by poles 2I9, 220 and 22I, poles 2I9 and 220 being electrically joined together; Contacts 2 I 4 and 2 I 5 are respectively cross connected in the usual manner with contacts 2I1 and 2I8 for reversin the current direction through field connectors 222 and 223 leading to the elevating motor 81. Poles 220 and 22I have leads 224 and 225 comprising armature connections to the motor 81. Pole 22I is also connected via the normally open push-button switch I8I with the distributing conductor 206. Poles 2I3 and 2I6 are connected to the second conductor 201 respectively via the normally closed limit switches I95 and I96.

When the switch I19 is thrown to upper position and the push-button switch ISI is closed, the connection from conductor 206 is completed via switch IBI, pole 22I, to the motor armature lead 225, also via pole HI and contact 2I5 to the field lead 223. At the same tim current flows from the conductor 201 via limit switch I95, contact 2I3 and pole 2I9 to the pole 220, thence to the second armature lead 224, and via contact 2I4 to the second field lead 222. By this means the motor is energized to raise the carriage 45 (Figure l) When the switch I19 is thrown to downward position, the current connections to the armature leads 224 and 225 are the same as described except that the pole 2 I 9 received current from conductor 201 via limit switch I96 and lower contact 2I6 without any change in polarity. However, the field leads 222 and 223 now receive their current from poles 22I and 220 respectively through the cross connected contacts 2I8 and 2I1 respectively. The motor field is thereby reversed, causing the motor 81 to revolve in the reverse direction and lower the carriage 4 I If during upward driving operation of the motor 81 the limit switch I96 is opened, the described supply from conductor 201 is broken causing the motor 81 to stop. Thereafter, current can be restored only by throwing the switch downward to complete the connection through the second or lower limit switch I96, whereupon closure of the button switch I8! again energizes the motor in the downward driving direction.

Similarly, if the lower limit I96 switch is opened to stop the motor, the latter can only be energized after throwing the switch I19 to upward driving position.

By the above described means, it will be seen that engagement of either limit switch with its second distributing conductor 201; A manual switch I18 is shunted across the time switch I83 by means of wires 229 and 230. Thus when switch I18 is closed, the lamp'fiiiremains energized irrespective of the time switch I83.

The time switch I83 is preferably of the wellknown electrically actuated type, a branch 226 being provided. to supply a current connection from 206 to the actuating mechanismunder control of the button I84. The shutter motor 11 is connected on one side via a lead 23I to the conductor 206. A wire 234, from the second side of the motor 11, is connected to the normally open cam switch 84 (Figures 1 and 3) thence via lead 235, the toggle switch I11, and a lead 236 to the conductor 201. Also, from the other or second side of the motor 11, a wire 232 is connected to the normally open foot switch 20I, which latter is in turn connected via lead 233-to the lead 235.

From the above connections, it is evident that the motor 11 may be energized through either one of two parallel circuit-closing means, that is via the foot-switch 20I or via the cam switch 84 and manual switch I11., which latter is normally kept closed during photographing operation. The cam 82, as previously set forth, is secured on the low-speed geared output shaft of the motor 11. The contour of the cam 82 is such that it allows the switch 84 to remain open only in normal or stop position as shown.

When the foot-switch 26I is momentarily closed to start the motor 11, the initial movement of the cam 82 also closes the switch 84 and holds it closed after opening of the foot switch, thus keeping the motor energized and causing it. to drive the shaft 80 throughout one complete revolution,

whereupon the cam 82 again allows the switch 34 to break the circuit and stop the motor 11.

If the toggle switch I11 is opened, as in projection operations hereinafter described, it is evident that no holding circuit can be established by the cam switch 09, and the motor 11 remains solely under control of the switch I11. 7

The second cam-switch 85 (Figures 1 and 4) is connected in series with the signal lamp 203 across the conductors 296 and'261 via wires 231, 238, and 239 (Figure 16). The cam 83, also mounted on the shaft 86 as previously set forth, is of such contour as to close ,the switch 85 and thereby cause the signal light 203 to light up during that portion of the revolution of shaft 60 when the previously described shutter I68 is open.

The focusing motor 54 is connected through the reversing switch I30 with the conductors 206 and 201, the normally open push-button switch I82 being interposed in the circuit connection from conductor 206. As the operation and wiring of such reversing switches are well known and have previously been described in connection with elevating motor 61, further detailed description thereof is believed unnecessary repetition herein; it is evident that throwing the switch I86 to upper or lower position conditions the motor circuit for operation of the motor in either desired direction under control of the push-button switch I82.

The operation is as follows:

Photography When it is desired torecord images of documents, maps, drawings, or the like, the operator first places a frame of developed film in position on the film-gate I I I under the pressureplate I I3, the housing 62 having been previously swungupward and open on its pivots 63 to allow access to 9 the interior of the sub-assembly 6|. While the housing is open, the spring-pressed fulcrum pin I24 (Figures and 6), may be withdrawn to the left, releasing the shank II8 so that the pressure plate H3 may be swung upward clear of the film I Ill and gate II I to facilitate positioning the film. This process is then reversed. The housing 62 is closed down, and the enlarger switch I18 is closed, thereby turning on the projection lamp 65. The operator next depresses the foot-switch 20I, starting the shutter control motor I! and allowing the latter to run under control of the cam-switch 84 until the shutter reaches wideopen position. At this point the manual switch I1? is opened to stop the motor 77, leaving the shutter in open position, the pressure plate having meanwhile been lowered into engagement with the film by the spring IZI, Figure '7.

The shutter I68 being open, light passes from the lamp 55 to the inclined mirror 61, thence downward through the condensing lens system 5 the shutter sub-assembly 6! and the film therein, and the lens 52, an image of the developed film frame being projected on the table 3 3 or on a sheet of material spread thereon. The operator then manipulates the elevator switch I19 and push-button IBI to lower or raise the carriage and camera-projector by means of the motor Bl until the projected image covers the desired area. The operator similarly manipulates the switches I80 and IE2, to adjust the lens 52 by means of the focusing motor 54 until the image is sharply focused. The. foregoing field and focus adjustments may be made withthe image projected directly ontthe sheet to be photographed or on a suitable blank sheet of proper size. The document, drawing, or the like, having beensecured to the table 34 by any suitable means such as tacks, tape, or weighted retainers, and the previously described field and focus adjustmehts having been made, the lamp 65 is extinguished by opening the switch I18 and the shutter switcht'l'l isclosed, the latter causing the motor H to be energized through the camswitch '84 as previously described. The motor ll! runs until the cam 82 opens the switch 85 in normal position as shown in Figure 3, thereby closing the shutter. The operator replaces the developed film with unexposed film, threading the latter from the reel I85, throughthe control sub-assembly 5|, as shown in Figures 5 and 6, and to the take-up reel tilt; the housing 62 is again lowered into closed position to exclude light.

ing the remainder of the revolution of shaft 80 after closure of the shutter, the cams [I28 and I48 respectively raise the pressure plate I I3 from the film it)? and disengage the detent IEI from the notch N59 or I5fi, thereby causing the sprocket 535] to move the film forward one frame in the manner previously explained. The single revolution of the shaft 89, Figure 5, thus effects the exposure and conditions the apparatus for thenext exposure. The operator removes the first documerit or other subject photographed from the table 3%, places the second in the same position, and again depresses the foot-switch 20-1 to photograph the second subject, and proceeds in the manner described to record the desired series" of subjects on successive frames of the film I01.

As noted previously, an entire series of subjects may be photographed after a single initial setting of the field and focus. However, once a certain desired field and focus settin have been arrived at for a given size of subject, no initial projection is necessary thereafter in order to arrive atthis setting for later recordings, due to the provision of the height scale 96, Figures 1, and 2, and the focal setting. When the operator has initially arrived at the proper field and focal settings as described, he may observe and note down the readings of the scale 96 and the focal etting. Thereafter, when it is desired to photograph further subjects of the size or seriesnoted, or to reproduce the subjects by projection as hereinafter described, it is only necessary to operate the elevating and focusing switching means until the previously noted height and focal readings are obtained. Similarly, subjects of different areas may be photographed in series with- It will be understood the above described preparatory field and focus setting .need be' performed only once, at the beginning of a series of photographic recordings of similar size.

To photograph the document spread on the table '34 the li hts I95 are turned on by closing the switch I35 and if required the intensity of illumination is adjusted by means of" the variable transformer I31, either to a pro-determined setting of the handle T90 or by use of any suitable light meter. The operator then momentarily closes the foot-switch 20! to start the shutter motor ll, the cam-switch 8t thereafter causing the motor to' drive the shaft 80 until one complete; revolution is. completed as previously set forth. Y 1

During the single revolution noted, the notch or opening I13 of the shutter I68 traverses the optical path between thelens Wand the film I 61, allowing the lens to cast an illuminated image of the document on the film during a pre-determined length of time to effect the exposure. Durout intermediate test setting or focusing, simply by manipulating the elevating and focusing controls to bring the scale and counter readings to previously determined proper figures for thevarious sized subjects. In case of series photographing of widely differing fields or areas, and consequent lens distance, it may also be desirable to Vary the intensity of the illumination by manipulation of the transformer control handle I as previously described.

It will be noted that all of the foregoing operations may be effected by the user. from a single position in front of the table 3 the normal functions of setting camera height, setting the focus, setting the illumination, making the exposure, and resetting the film being carried out by remote control from the panels I75 and H6. Even the manual operation of changing or adjusting the film It? in the camera may be carried out from the same position, since the camera may be lowered to extreme bottom position directly in front of the operator, the proper original height being afterward restored, as previously noted, from the scale 96. It is obvious that provision of the described complete remote control from a single position adapts the device to rapid and easy operation with a minimum of fatigue for the user.

Reproduction When it is desired to reproduce previously photographed subjects, the developed film carrying the images is threaded into the camera-projector A2 in the manner previously described for insertion of raw film. The projection lamp 65 is turned on, the shutter I68 is again opened by manipulation of switches Ill and 2M, and the proper camera heightand focus are arrived at either by direct test projection on a blank sheet on the table 34 or by setting to height and focal manner of such switches.

, 11 indicating figures previously noted at the time of photographing the particular subject to be re- .produced. The time switch, I83, having been set for the desired period of exposure, the switch I18 is opened to extinguish the lamp 65 and a suitable sheet of sensitized paper or the like is secured in proper position on the table 34.

The time switch I83 is tripped by means of its button I84, the switch closing and remaining closed for the predetermined time in the usual v The lamp 65 is thereby illuminated during the pre-determined period, during which period the' enlarged image from the film IE3! is projected on the sensitized sheet. When the time-switch I83 has again extinguished the lamp 65 the sensitized sheet is removed for development and/or fixing in the usual manner. In case a succeeding image on the film strip is to be reproduced, switches I11 and ZIII are operated until the shutter motor l'l has closed and again reopened the shutter I68, during which operation the film has been advanced one frame in the manner previously described, after which a second sensitized sheet is placed in position and the second projection exposure made a set forth.

In case it is desired to make more than one print from the same film frame, the operator simply changes the sensitized sheets and effects the exposures by repeated trippings of the time switch I83 without intermediate closing of the shutter I68. 7

All the described reproducing operations are carried out from the single operating position, and-except of course for changing the sensitized paper, all are done by remote control, with the same advantages of speed, ease and precision noted with respect to recording.

While the apparatus is adapted to reproduction in the precise original size, it i obvious that enlargement or reduction in the reproduction may readily be made by proper setting of camera-projector height and focus. I

From the foregoing description it will be seen that the invention makes possible the photographic recording and reproduction with maximum rapidity, precision and accuracy, guesswork being eliminated. The' accuracy is augmented by the fact that reproduction takes place by projection through the same lens and, if desired, with the identical setting used in the original photographic recording. Thus any defects, such as optical aberration or blurs impressed on the film for any reason, even such as slightoptical defects in the lens, are automatically cancelled out and corrected by reversal in the projection through the same lens; the results are thilis uniformly sharp reproductions of the origina s.

, A convenience outlet 248, connected to the conductors 295 and 291, Figure 24, may be provided at any suitable location on the device, for supplying current to any auxiliary electrical apparatus, such as extension lights or the like, which it may be desired to use in connection with the apparatus.

While the invention has been described in [preferred form it is not limited to the precise structures illustrated, as various modifications and changes may be made without departing from the scope of the appended claims. What is claimed-is:

1. In a camera projector, a horizontal rectangular frame having verticalsides, a web within V 12 said frame and joining said sides to'divide said, frame into an upper and a lower compartment, 9.

film gate formed in said web, a transparent pres-,

sure plate in said upper compartment, a holder for said ressure plate, a yoke on which said holder is trunnioned, a lever supported on said web in said upper compartment and carrying said yoke, a plunger reciprocally mounted in said web and having its upper end pivotally connected to said lever, spring means urging said plunger and imparting said urge via said lever to said pressure plate, an intermittent movement for moving said film through said gate, and cam means in said lower compartment connected to said movement and adapted to move said plunger against the urge of said spring and separate the pressure plate from said film gate while said fil-m is mov-; ing therethrough.

2. In a camera projector, a horizontal rectangular frame having vertical sides, a web within said frame and joining said sides to divide said frame into an upper and a lower compartment, 2. film gate formed in said web, a transparent pressure plate in said upper compartment, 2. holder for said pressur plate, a yoke on which said holder is trunnioned,' a lever supported on said web in said upper compartment and carrying said yoke, a plunger reciprocally mounted in said web and having its upper end pivotally connected to said lever, spring mean'surging said plunger and imparting said urge via said lever to said pressure plate, an intermittent movement for moving said film through said gate, a lever pivotally supported in said lower compartment and having a free end operatively connected to said plunger, and cam means in said lower compartment connected to said movement and adapted to engage and move said lever, thereby moving said plunger against the urge of said spring and separating the pressure plate from said film gate while said film is moving therethrough.

' 3. In a camera projector, a horizontal rectangular frame having vertical sides, a web within said frame and joining said'sides to divide said frame into an upper and a lower compartment, a film gate formed in said web, openings formed in opposite walls of said'frame in alignment with said film gate and providing i passage theresaid pressure plate, a yoke on which said holder.

is trunnioned, a lever supported on said web in said upper compartment and carrying said yoke,

a plunger reciprocally mounted in said web and having its upper end pivotally connected to said lever, spring means urging said plunger and im parting said urge via saidlever to said pressure plate, a shaft in saidupper compartment, an intermittent movement for moving said film through said gate, a lever in said lower compartment having one end pivotally supported therein and having its other end operatively connected to said plunger, said lever also having a step formed intermediate the ends thereof, and a cam carried on a shaft journalled in said lower compartment, said shaft being geared to said first shaft, said cam acting against said step for moving said lever and in turn moving said plunger against the urge of said spring to separate the pressure plate from said filrn gate while said film is moving therethrough. 

